Local outlier factor for anomaly detection in HPCC systems
Arya Adesh, G. Shobha, Jyoti Shetty, Lili Xu
Abstract
Local Outlier Factor (LOF) is an unsupervised anomaly detection algorithm that detects anomalies by assessing the local density of a data point relative to its neighborhood. Anomaly detection is the process of finding anomalies in datasets. Anomalies in real-time datasets may indicate critical events like bank frauds, data compromise, network threats, etc. This paper deals with the implementation of the LOF algorithm in the HPCC Systems platform, which is an open-source distributed computing platform for big data analytics. Improved LOF is also proposed which efficiently detects anomalies in datasets rich in duplicates. The impact of varying hyperparameters on the performance of LOF is examined in HPCC Systems. This paper examines the performance of LOF with other algorithms like COF, LoOP, and kNN over several datasets in the HPCC Systems. Additionally, the efficacy of LOF is evaluated across big-data frameworks such as Spark, Hadoop, and HPCC Systems, by comparing their runtime performances.